Global Automotive Torque Vectoring Market was valued at US$ 4.48Bn in 2019 and is expected to reach US$ 19.73Bn by 2026, at a CAGR of 20.36% during a forecast period. The report includes an analysis of the impact of COVID-19 lockdown on the revenue of market leaders, followers, and disruptors. Since the lockdown was implemented differently in various regions and countries; the impact of the same is also seen differently by regions and segments. The report has covered the current short-term and long-term impact on the market, and it would help the decision-makers to prepare the outline and strategies for companies by region. To know about the Research Methodology:-Request Free Sample ReportGlobal Automotive Torque Vectoring Market Overview:
Torque vectoring is a technology employed in automobile differentials. A differential transfers engine torque to the wheels. Torque vectoring technology provides the differential with the ability to vary the torque to each wheel. This method of power transfer has recently become popular in all-wheel-drive vehicles. Major driving factors of the automotive torque vectoring market are increasing rising concerns for vehicle safety and dynamics among the users. This is driving the torque vectoring market. With the development of better and advanced safety measures for premium as well as other commercial vehicles, the torque vectoring market is growing. Torque vectoring system improves the convenience for the motive force throughout improper road conditions by gathering data victimization sensors that monitor the wheel steering angle, wheel speed, and yaw rate. Growing would like for convenience and safety in multiple parcel systems is one of the first drivers for market growth. The growing mobility services in major countries and the increase in shared mobility services will act as restraints to the market.Global Automotive Torque Vectoring Market Segment Analysis:
Based on the EV, BEV (Battery electric vehicles) segment is expected to hold the largest share in the Automotive Torque Vectoring market during the forecast period. Electric vehicle architectures with individual wheel propulsion devices on the other allowing for selective torque distribution. Next to the positive vehicle handling and safety features of torque vectoring an efficient operation is providing to extend the operational range of the electric vehicle. Future vehicle technology related to yaw moment control, anti-lock braking, and traction control through the employment of effective torque vectoring strategies for electric vehicles are the growth opportunity for the automotive torque vectoring market Based on the clutch Actuation type, the torsion vectoring market includes hydraulic and electronic. Hydraulic accounts for the most value at the moment, whereas, the electronic phase will rise with a much better rate of growth. Electronic is increasing in a variety of transmission concepts, the Electronic in clutch actuation continues to be one of the most important in transmission designs. By propulsion, the torque vectoring market can be segmented into the front-wheel drive, rear-wheel drive, and all/four-wheel drive. The front-wheel-drive segment leads the market, whereas, rear-wheel drive can enjoy the fastest CAGR during the forecast period.Global Automotive Torque Vectoring Market Regional Analysis:
In terms of region, Asia is expected to hold the largest share in the Automotive Torque Vectoring market during the forecast period. Asia established itself as the world’s biggest car market in 2010 after vehicle sales jumped a whopping 68 percent over the forecasted period. Government incentives such as tax breaks and rural subsidies have helped Asia's annual vehicle sales rise by double digits over the past few years. The Chinese government has encouraged foreign automakers to establish joint ventures and share technology with local companies. The report includes a detailed study of Porter’s Five Forces model to analyze the different factors affecting the growth of the Automotive Torque Vectoring market. Moreover, the study also covers an Automotive Torque Vectoring market attractiveness analysis, brand portfolio expansion, mergers, collaborations, joint ventures, acquisitions, PESTLE analysis, Value Chain Analysis, and SWOT analysis.Global Automotive Torque Vectoring Market, Key Highlights:
• Global Automotive Torque Vectoring Market analysis and forecast, in terms of value. • Comprehensive study and analysis of market drivers, restraints and opportunities influencing the growth of the Global Automotive Torque Vectoring Market • Global Automotive Torque Vectoring Market segmentation on the basis of type, source, end-user, and region (country-wise) has been provided. • Global Automotive Torque Vectoring Market strategic analysis with respect to individual growth trends, future prospects along with the contribution of various sub-market stakeholders have been considered under the scope of study. • Global Automotive Torque Vectoring Market analysis and forecast for five major regions namely North America, Europe, Asia Pacific, the Middle East & Africa (MEA) and Latin America along with country-wise segmentation. • Profiles of key industry players, their strategic perspective, market positioning and analysis of core competencies are further profiled. • Competitive developments, investments, strategic expansion and competitive landscape of the key players operating in the Global Automotive Torque Vectoring Market are also profiled. The report has considered the base year of 2019 and past four years trend. 2020 figures are at actuals, however due to different dynamics of year 2020, market forecast is not only dependent upon 2020, but on the basis of 2016-2020.Scope of the Global Automotive Torque Vectoring Market: Inquire before buying
Global Automotive Torque Vectoring Market, by Technology
• ATVS (Active torque vectoring system) • PTVS (Passive torque vectoring system)Global Automotive Torque Vectoring Market, by Propulsion
• AWD/4WD (All-Wheel Drive / Four Wheel Drive) • FWD (Front Wheel Drive) • RWD (Rear Wheel Drive)Global Automotive Torque Vectoring Market, by EV
• BEV (Battery electric vehicles) • HEV (Hybrid electric vehicles)Global Automotive Torque Vectoring Market, by Clutch Actuation Type
• Hydraulic • ElectronicGlobal Automotive Torque Vectoring Market, by Vehicle Type
• Passenger Vehicle • Light Commercial VehicleGlobal Automotive Torque Vectoring Market, by Region
• North America • Europe • Asia Pacific • Middle East & Africa • South AmericaGlobal Automotive Torque Vectoring Market : Key Players
• GKN • American Axle • Dana • BorgWarner • Eaton • ZF • JTEKT • Magna • Bosch • Univance • Schaeffler • Timken • Ricardo • Oerlikon Graziano • Mitsubishi Heavy Industries • HALDEX • Continental Global Ultralight Aircraft Market
Global Automotive Torque Vectoring Market
1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary: Global Automotive Torque Vectoring Size, by Market Value (US$ Bn) and Market Volume (Units) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Industry Trends and Emerging Technologies 4.8. Patent Registration 5. Supply Side and Demand Side Indicators 6. Global Automotive Torque Vectoring Market Analysis and Forecast 6.1. Global Automotive Torque Vectoring Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global Automotive Torque Vectoring Market Analysis and Forecast, By Technology 7.1. Introduction and Definition 7.2. Key Findings 7.3. Global Automotive Torque Vectoring Market Value Share Analysis, By Technology 7.4. Global Automotive Torque Vectoring Market Size (US$ Bn) Forecast, By Technology 7.5. Global Automotive Torque Vectoring Market Analysis, By Technology 7.6. Global Automotive Torque Vectoring Market Attractiveness Analysis, By Technology 8. Global Automotive Torque Vectoring Market Analysis and Forecast, By Propulsion 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global Automotive Torque Vectoring Market Value Share Analysis, By Propulsion 8.4. Global Automotive Torque Vectoring Market Size (US$ Bn) Forecast, By Propulsion 8.5. Global Automotive Torque Vectoring Market Analysis, By Propulsion 8.6. Global Automotive Torque Vectoring Market Attractiveness Analysis, By Propulsion 9. Global Automotive Torque Vectoring Market Analysis and Forecast, By EV 9.1. Introduction and Definition 9.2. Key Findings 9.3. Global Automotive Torque Vectoring Market Value Share Analysis, By EV 9.4. Global Automotive Torque Vectoring Market Size (US$ Bn) Forecast, By EV 9.5. Global Automotive Torque Vectoring Market Analysis, By EV 9.6. Global Automotive Torque Vectoring Market Attractiveness Analysis, By EV 10. Global Automotive Torque Vectoring Market Analysis and Forecast, By Clutch Actuation Type 10.1. Introduction and Definition 10.2. Key Findings 10.3. Global Automotive Torque Vectoring Market Value Share Analysis, By Clutch Actuation Type 10.4. Global Automotive Torque Vectoring Market Size (US$ Bn) Forecast, By Clutch Actuation Type 10.5. Global Automotive Torque Vectoring Market Analysis, By Clutch Actuation Type 10.6. Global Automotive Torque Vectoring Market Attractiveness Analysis, By Clutch Actuation Type 11. Global Automotive Torque Vectoring Market Analysis and Forecast, By Vehicle Type 11.1. Introduction and Definition 11.2. Key Findings 11.3. Global Automotive Torque Vectoring Market Value Share Analysis, By Vehicle Type 11.4. Global Automotive Torque Vectoring Market Size (US$ Bn) Forecast, By Vehicle Type 11.5. Global Automotive Torque Vectoring Market Analysis, By Vehicle Type 11.6. Global Automotive Torque Vectoring Market Attractiveness Analysis, By Vehicle Type 12. Global Automotive Torque Vectoring Market Analysis, by Region 12.1. Global Automotive Torque Vectoring Market Value Share Analysis, by Region 12.2. Global Automotive Torque Vectoring Market Size (US$ Bn) Forecast, by Region 12.3. Global Automotive Torque Vectoring Market Attractiveness Analysis, by Region 13. North America Automotive Torque Vectoring Market Analysis 13.1. Key Findings 13.2. North America Automotive Torque Vectoring Market Overview 13.3. North America Automotive Torque Vectoring Market Value Share Analysis, By Technology 13.4. North America Automotive Torque Vectoring Market Forecast, By Technology 13.4.1. ATVS 13.4.2. PTVS 13.5. North America Automotive Torque Vectoring Market Value Share Analysis, By Propulsion 13.6. North America Automotive Torque Vectoring Market Forecast, By Propulsion 13.6.1. AWD/4WD 13.6.2. FWD 13.6.3. RWD 13.7. North America Automotive Torque Vectoring Market Value Share Analysis, By EV 13.8. North America Automotive Torque Vectoring Market Forecast, By EV 13.8.1. BEV 13.8.2. HEV 13.9. North America Automotive Torque Vectoring Market Value Share Analysis, By Clutch Actuation Type 13.10. North America Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 13.10.1. Hydraulic 13.10.2. Electronic 13.11. North America Automotive Torque Vectoring Market Value Share Analysis, By Vehicle Type 13.12. North America Automotive Torque Vectoring Market Forecast, By Vehicle Type 13.12.1. Passenger vehicle 13.12.2. Light Commercial vehicle 13.13. North America Automotive Torque Vectoring Market Value Share Analysis, by Country 13.14. North America Automotive Torque Vectoring Market Forecast, by Country 13.14.1. U.S. 13.14.2. Canada 13.15. North America Automotive Torque Vectoring Market Analysis, by Country 13.16. U.S. Automotive Torque Vectoring Market Forecast, By Technology 13.16.1. ATVS 13.16.2. PTVS 13.17. U.S. Automotive Torque Vectoring Market Forecast, By Propulsion 13.17.1. AWD/4WD 13.17.2. FWD 13.17.3. RWD 13.18. U.S. Automotive Torque Vectoring Market Forecast, By EV 13.18.1. BEV 13.18.2. HEV 13.19. U.S. Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 13.19.1. Hydraulic 13.19.2. Electronic 13.20. U.S. Automotive Torque Vectoring Market Forecast, By Vehicle Type 13.20.1. Passenger vehicle 13.20.2. Light Commercial vehicle 13.21. Canada Automotive Torque Vectoring Market Forecast, By Technology 13.21.1. ATVS 13.21.2. PTVS 13.22. Canada Automotive Torque Vectoring Market Forecast, By Propulsion 13.22.1. AWD/4WD 13.22.2. FWD 13.22.3. RWD 13.23. Canada Automotive Torque Vectoring Market Forecast, By EV 13.23.1. BEV 13.23.2. HEV 13.24. Canada Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 13.24.1. Hydraulic 13.24.2. Electronic 13.25. Canada Automotive Torque Vectoring Market Forecast, By Vehicle Type 13.25.1. Passenger vehicle 13.25.2. Light Commercial vehicle 13.26. North America Automotive Torque Vectoring Market Attractiveness Analysis 13.26.1. By Technology 13.26.2. By Propulsion 13.26.3. By EV 13.26.4. By Clutch Actuation Type 13.26.5. By Vehicle Type 13.27. PEST Analysis 13.28. Key Trends 13.29. Key Developments 14. Europe Automotive Torque Vectoring Market Analysis 14.1. Key Findings 14.2. Europe Automotive Torque Vectoring Market Overview 14.3. Europe Automotive Torque Vectoring Market Value Share Analysis, By Technology 14.4. Europe Automotive Torque Vectoring Market Forecast, By Technology 14.4.1. ATVS 14.4.2. PTVS 14.5. Europe Automotive Torque Vectoring Market Value Share Analysis, By Propulsion 14.6. Europe Automotive Torque Vectoring Market Forecast, By Propulsion 14.6.1. AWD/4WD 14.6.2. FWD 14.6.3. RWD 14.7. Europe Automotive Torque Vectoring Market Value Share Analysis, By EV 14.8. Europe Automotive Torque Vectoring Market Forecast, By EV 14.8.1. BEV 14.8.2. HEV 14.9. Europe Automotive Torque Vectoring Market Value Share Analysis, By Clutch Actuation Type 14.10. Europe Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 14.10.1. Hydraulic 14.10.2. Electronic 14.11. Europe Automotive Torque Vectoring Market Value Share Analysis, By Vehicle Type 14.12. Europe Automotive Torque Vectoring Market Forecast, By Vehicle Type 14.12.1. Passenger vehicle 14.12.2. Light Commercial vehicle 14.13. Europe Automotive Torque Vectoring Market Value Share Analysis, by Country 14.14. Europe Automotive Torque Vectoring Market Forecast, by Country 14.14.1. Germany 14.14.2. U.K. 14.14.3. France 14.14.4. Italy 14.14.5. Spain 14.14.6. Rest of Europe 14.15. Europe Automotive Torque Vectoring Market Analysis, by Country 14.16. Germany Automotive Torque Vectoring Market Forecast, By Technology 14.16.1. ATVS 14.16.2. PTVS 14.17. Germany Automotive Torque Vectoring Market Forecast, By Propulsion 14.17.1. AWD/4WD 14.17.2. FWD 14.17.3. RWD 14.18. Germany Automotive Torque Vectoring Market Forecast, By EV 14.18.1. BEV 14.18.2. HEV 14.19. Germany Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 14.19.1. Hydraulic 14.19.2. Electronic 14.20. Germany Automotive Torque Vectoring Market Forecast, By Vehicle Type 14.20.1. Passenger vehicle 14.20.2. Light Commercial vehicle 14.21. U.K. Automotive Torque Vectoring Market Forecast, By Technology 14.21.1. ATVS 14.21.2. PTVS 14.22. U.K. Automotive Torque Vectoring Market Forecast, By Propulsion 14.22.1. AWD/4WD 14.22.2. FWD 14.22.3. RWD 14.23. U.K. Automotive Torque Vectoring Market Forecast, By EV 14.23.1. BEV 14.23.2. HEV 14.24. U.K. Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 14.24.1. Hydraulic 14.24.2. Electronic 14.25. U.K. Automotive Torque Vectoring Market Forecast, By Vehicle Type 14.25.1. Passenger vehicle 14.25.2. Light Commercial vehicle 14.26. France Automotive Torque Vectoring Market Forecast, By Technology 14.26.1. ATVS 14.26.2. PTVS 14.27. France Automotive Torque Vectoring Market Forecast, By Propulsion 14.27.1. AWD/4WD 14.27.2. FWD 14.27.3. RWD 14.28. France Automotive Torque Vectoring Market Forecast, By EV 14.28.1. BEV 14.28.2. HEV 14.29. France Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 14.29.1. Hydraulic 14.29.2. Electronic 14.30. France Automotive Torque Vectoring Market Forecast, By Vehicle Type 14.30.1. Passenger vehicle 14.30.2. Light Commercial vehicle 14.31. Italy Automotive Torque Vectoring Market Forecast, By Technology 14.31.1. ATVS 14.31.2. PTVS 14.32. Italy Automotive Torque Vectoring Market Forecast, By Propulsion 14.32.1. AWD/4WD 14.32.2. FWD 14.32.3. RWD 14.33. Italy Automotive Torque Vectoring Market Forecast, By EV 14.33.1. BEV 14.33.2. HEV 14.34. Italy Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 14.34.1. Hydraulic 14.34.2. Electronic 14.35. Italy Automotive Torque Vectoring Market Forecast, By Vehicle Type 14.35.1. Passenger vehicle 14.35.2. Light Commercial vehicle 14.36. Spain Automotive Torque Vectoring Market Forecast, By Technology 14.36.1. ATVS 14.36.2. PTVS 14.37. Spain Automotive Torque Vectoring Market Forecast, By Propulsion 14.37.1. AWD/4WD 14.37.2. FWD 14.37.3. RWD 14.38. Spain Automotive Torque Vectoring Market Forecast, By EV 14.38.1. BEV 14.38.2. HEV 14.39. Spain Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 14.39.1. Hydraulic 14.39.2. Electronic 14.40. Spain Automotive Torque Vectoring Market Forecast, By Vehicle Type 14.40.1. Passenger vehicle 14.40.2. Light Commercial vehicle 14.41. Rest of Europe Automotive Torque Vectoring Market Forecast, By Technology 14.41.1. ATVS 14.41.2. PTVS 14.42. Rest of Europe Automotive Torque Vectoring Market Forecast, By Propulsion 14.42.1. AWD/4WD 14.42.2. FWD 14.42.3. RWD 14.43. Rest of Europe Automotive Torque Vectoring Market Forecast, By EV 14.43.1. BEV 14.43.2. HEV 14.44. Rest Of Europe Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 14.44.1. Hydraulic 14.44.2. Electronic 14.45. Rest Of Europe Automotive Torque Vectoring Market Forecast, By Vehicle Type 14.45.1. Passenger vehicle 14.45.2. Light Commercial vehicle 14.46. Europe Automotive Torque Vectoring Market Attractiveness Analysis 14.46.1. By Technology 14.46.2. By Propulsion 14.46.3. By EV 14.46.4. By Clutch Actuation Type 14.46.5. By Vehicle Type 14.47. PEST Analysis 14.48. Key Trends 14.49. Key Developments 15. Asia Pacific Automotive Torque Vectoring Market Analysis 15.1. Key Findings 15.2. Asia Pacific Automotive Torque Vectoring Market Overview 15.3. Asia Pacific Automotive Torque Vectoring Market Value Share Analysis, By Technology 15.4. Asia Pacific Automotive Torque Vectoring Market Forecast, By Technology 15.4.1. ATVS 15.4.2. PTVS 15.5. Asia Pacific Automotive Torque Vectoring Market Value Share Analysis, By Propulsion 15.6. Asia Pacific Automotive Torque Vectoring Market Forecast, By Propulsion 15.6.1. AWD/4WD 15.6.2. FWD 15.6.3. RWD 15.7. Asia Pacific Automotive Torque Vectoring Market Value Share Analysis, By EV 15.8. Asia Pacific Automotive Torque Vectoring Market Forecast, By EV 15.8.1. BEV 15.8.2. HEV 15.9. Asia Pacific Automotive Torque Vectoring Market Value Share Analysis, By Clutch Actuation Type 15.10. Asia Pacific Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 15.10.1. Hydraulic 15.10.2. Electronic 15.11. Asia Pacific Automotive Torque Vectoring Market Value Share Analysis, By Vehicle Type 15.12. Asia Pacific Automotive Torque Vectoring Market Forecast, By Vehicle Type 15.12.1. Passenger vehicle 15.12.2. Light Commercial vehicle 15.13. Asia Pacific Automotive Torque Vectoring Market Value Share Analysis, by Country 15.14. Asia Pacific Automotive Torque Vectoring Market Forecast, by Country 15.14.1. China 15.14.2. India 15.14.3. Japan 15.14.4. ASEAN 15.14.5. Rest of Asia Pacific 15.15. Asia Pacific Automotive Torque Vectoring Market Analysis, by Country 15.16. China Automotive Torque Vectoring Market Forecast, By Technology 15.16.1. ATVS 15.16.2. PTVS 15.17. China Automotive Torque Vectoring Market Forecast, By Propulsion 15.17.1. AWD/4WD 15.17.2. FWD 15.17.3. RWD 15.18. China Automotive Torque Vectoring Market Forecast, By EV 15.18.1. BEV 15.18.2. HEV 15.19. China Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 15.19.1. Hydraulic 15.19.2. Electronic 15.20. China Automotive Torque Vectoring Market Forecast, By Vehicle Type 15.20.1. Passenger vehicle 15.20.2. Light Commercial vehicle 15.21. India Automotive Torque Vectoring Market Forecast, By Technology 15.21.1. ATVS 15.21.2. PTVS 15.22. India Automotive Torque Vectoring Market Forecast, By Propulsion 15.22.1. AWD/4WD 15.22.2. FWD 15.22.3. RWD 15.23. India Automotive Torque Vectoring Market Forecast, By EV 15.23.1. BEV 15.23.2. HEV 15.24. India Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 15.24.1. Hydraulic 15.24.2. Electronic 15.25. India Automotive Torque Vectoring Market Forecast, By Vehicle Type 15.25.1. Passenger vehicle 15.25.2. Light Commercial vehicle 15.26. Japan Automotive Torque Vectoring Market Forecast, By Technology 15.26.1. ATVS 15.26.2. PTVS 15.27. Japan Automotive Torque Vectoring Market Forecast, By Propulsion 15.27.1. AWD/4WD 15.27.2. FWD 15.27.3. RWD 15.28. Japan Automotive Torque Vectoring Market Forecast, By EV 15.28.1. BEV 15.28.2. HEV 15.29. Japan Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 15.29.1. Hydraulic 15.29.2. Electronic 15.30. Japan Automotive Torque Vectoring Market Forecast, By Vehicle Type 15.30.1. Passenger vehicle 15.30.2. Light Commercial vehicle 15.31. ASEAN Automotive Torque Vectoring Market Forecast, By Technology 15.31.1. ATVS 15.31.2. PTVS 15.32. ASEAN Automotive Torque Vectoring Market Forecast, By Propulsion 15.32.1. AWD/4WD 15.32.2. FWD 15.32.3. RWD 15.33. ASEAN Automotive Torque Vectoring Market Forecast, By EV 15.33.1. BEV 15.33.2. HEV 15.34. ASEAN Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 15.34.1. Hydraulic 15.34.2. Electronic 15.35. ASEAN Automotive Torque Vectoring Market Forecast, By Vehicle Type 15.35.1. Passenger vehicle 15.35.2. Light Commercial vehicle 15.36. Rest of Asia Pacific Automotive Torque Vectoring Market Forecast, By Technology 15.36.1. ATVS 15.36.2. PTVS 15.37. Rest of Asia Pacific Automotive Torque Vectoring Market Forecast, By Propulsion 15.37.1. AWD/4WD 15.37.2. FWD 15.37.3. RWD 15.38. Rest of Asia Pacific Automotive Torque Vectoring Market Forecast, By EV 15.38.1. BEV 15.38.2. HEV 15.39. Rest of Asia Pacific Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 15.39.1. Hydraulic 15.39.2. Electronic 15.40. Rest of Asia Pacific Automotive Torque Vectoring Market Forecast, By Vehicle Type 15.40.1. Passenger vehicle 15.40.2. Light Commercial vehicle 15.41. Asia Pacific Automotive Torque Vectoring Market Attractiveness Analysis 15.41.1. By Technology 15.41.2. By Propulsion 15.41.3. By EV 15.41.4. By Clutch Actuation Type 15.41.5. By Vehicle Type 15.42. PEST Analysis 15.43. Key Trends 15.44. Key Developments 16. Middle East & Africa Automotive Torque Vectoring Market Analysis 16.1. Key Findings 16.2. Middle East & Africa Automotive Torque Vectoring Market Overview 16.3. Middle East & Africa Automotive Torque Vectoring Market Value Share Analysis, By Technology 16.4. Middle East & Africa Automotive Torque Vectoring Market Forecast, By Technology 16.4.1. ATVS 16.4.2. PTVS 16.5. Middle East & Africa Automotive Torque Vectoring Market Value Share Analysis, By Propulsion 16.6. Middle East & Africa Automotive Torque Vectoring Market Forecast, By Propulsion 16.6.1. AWD/4WD 16.6.2. FWD 16.6.3. RWD 16.7. Middle East & Africa Automotive Torque Vectoring Market Value Share Analysis, By EV 16.8. Middle East & Africa Automotive Torque Vectoring Market Forecast, By EV 16.8.1. BEV 16.8.2. HEV 16.9. Middle East & Africa Automotive Torque Vectoring Market Value Share Analysis, By Clutch Actuation Type 16.10. Middle East & Africa Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 16.10.1. Hydraulic 16.10.2. Electronic 16.11. Middle East & Africa Automotive Torque Vectoring Market Value Share Analysis, By Vehicle Type 16.12. Middle East & Africa Automotive Torque Vectoring Market Forecast, By Vehicle Type 16.12.1. Passenger vehicle 16.12.2. Light Commercial vehicle 16.13. Middle East & Africa Automotive Torque Vectoring Market Value Share Analysis, by Country 16.14. Middle East & Africa Automotive Torque Vectoring Market Forecast, by Country 16.14.1. GCC 16.14.2. South Africa 16.14.3. Rest of Middle East & Africa 16.15. Middle East & Africa Automotive Torque Vectoring Market Analysis, by Country 16.16. GCC Automotive Torque Vectoring Market Forecast, By Technology 16.16.1. ATVS 16.16.2. PTVS 16.17. GCC Automotive Torque Vectoring Market Forecast, By Propulsion 16.17.1. AWD/4WD 16.17.2. FWD 16.17.3. RWD 16.18. GCC Automotive Torque Vectoring Market Forecast, By EV 16.18.1. BEV 16.18.2. HEV 16.19. GCC Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 16.19.1. Hydraulic 16.19.2. Electronic 16.20. GCC Automotive Torque Vectoring Market Forecast, By Vehicle Type 16.20.1. Passenger vehicle 16.20.2. Light Commercial vehicle 16.21. South Africa Automotive Torque Vectoring Market Forecast, By Technology 16.21.1. ATVS 16.21.2. PTVS 16.22. South Africa Automotive Torque Vectoring Market Forecast, By Propulsion 16.22.1. AWD/4WD 16.22.2. FWD 16.22.3. RWD 16.23. South Africa Automotive Torque Vectoring Market Forecast, By EV 16.23.1. BEV 16.23.2. HEV 16.24. South Africa Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 16.24.1. Hydraulic 16.24.2. Electronic 16.25. South Africa Automotive Torque Vectoring Market Forecast, By Vehicle Type 16.25.1. Passenger vehicle 16.25.2. Light Commercial vehicle 16.26. Rest of Middle East & Africa Automotive Torque Vectoring Market Forecast, By Technology 16.26.1. ATVS 16.26.2. PTVS 16.27. Rest of Middle East & Africa Automotive Torque Vectoring Market Forecast, By Propulsion 16.27.1. AWD/4WD 16.27.2. FWD 16.27.3. RWD 16.28. Rest of Middle East & Africa Automotive Torque Vectoring Market Forecast, By EV 16.28.1. BEV 16.28.2. HEV 16.29. Rest of Middle East & Africa Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 16.29.1. Hydraulic 16.29.2. Electronic 16.30. Rest of Middle East & Africa Automotive Torque Vectoring Market Forecast, By Vehicle Type 16.30.1. Passenger vehicle 16.30.2. Light Commercial vehicle 16.31. Middle East & Africa Automotive Torque Vectoring Market Attractiveness Analysis 16.31.1. By Technology 16.31.2. By Propulsion 16.31.3. By EV 16.31.4. By Clutch Actuation Type 16.31.5. By Vehicle Type 16.32. PEST Analysis 16.33. Key Trends 16.34. Key Developments 17. South America Automotive Torque Vectoring Market Analysis 17.1. Key Findings 17.2. South America Automotive Torque Vectoring Market Overview 17.3. South America Automotive Torque Vectoring Market Value Share Analysis, By Technology 17.4. South America Automotive Torque Vectoring Market Forecast, By Technology 17.4.1. ATVS 17.4.2. PTVS 17.5. South America Automotive Torque Vectoring Market Value Share Analysis, By Propulsion 17.6. South America Automotive Torque Vectoring Market Forecast, By Propulsion 17.6.1. AWD/4WD 17.6.2. FWD 17.6.3. RWD 17.7. South America Automotive Torque Vectoring Market Value Share Analysis, By EV 17.8. South America Automotive Torque Vectoring Market Forecast, By EV 17.8.1. BEV 17.8.2. HEV 17.9. South America Automotive Torque Vectoring Market Value Share Analysis, By Clutch Actuation Type 17.10. South America Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 17.10.1. Hydraulic 17.10.2. Electronic 17.11. South America Automotive Torque Vectoring Market Value Share Analysis, By Vehicle Type 17.12. South America Automotive Torque Vectoring Market Forecast, By Vehicle Type 17.12.1. Passenger vehicle 17.12.2. Light Commercial vehicle 17.13. South America Automotive Torque Vectoring Market Value Share Analysis, by Country 17.14. South America Automotive Torque Vectoring Market Forecast, by Country 17.14.1. Brazil 17.14.2. Mexico 17.14.3. Rest of South America 17.15. South America Automotive Torque Vectoring Market Analysis, by Country 17.16. Brazil Automotive Torque Vectoring Market Forecast, By Technology 17.16.1. ATVS 17.16.2. PTVS 17.17. Brazil Automotive Torque Vectoring Market Forecast, By Propulsion 17.17.1. AWD/4WD 17.17.2. FWD 17.17.3. RWD 17.18. Brazil Automotive Torque Vectoring Market Forecast, By EV 17.18.1. BEV 17.18.2. HEV 17.19. Brazil Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 17.19.1. Hydraulic 17.19.2. Electronic 17.20. Brazil Automotive Torque Vectoring Market Forecast, By Vehicle Type 17.20.1. Passenger vehicle 17.20.2. Light Commercial vehicle 17.21. Mexico Automotive Torque Vectoring Market Forecast, By Technology 17.21.1. ATVS 17.21.2. PTVS 17.22. Mexico Automotive Torque Vectoring Market Forecast, By Propulsion 17.22.1. AWD/4WD 17.22.2. FWD 17.22.3. RWD 17.23. Mexico Automotive Torque Vectoring Market Forecast, By EV 17.23.1. BEV 17.23.2. HEV 17.24. Mexico Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 17.24.1. Hydraulic 17.24.2. Electronic 17.25. Mexico Automotive Torque Vectoring Market Forecast, By Vehicle Type 17.25.1. Passenger vehicle 17.25.2. Light Commercial vehicle 17.26. Rest of South America Automotive Torque Vectoring Market Forecast, By Technology 17.26.1. ATVS 17.26.2. PTVS 17.27. Rest of South America Automotive Torque Vectoring Market Forecast, By Propulsion 17.27.1. AWD/4WD 17.27.2. FWD 17.27.3. RWD 17.28. Rest of South America Automotive Torque Vectoring Market Forecast, By EV 17.28.1. BEV 17.28.2. HEV 17.29. Rest of South America Automotive Torque Vectoring Market Forecast, By Clutch Actuation Type 17.29.1. Hydraulic 17.29.2. Electronic 17.30. Rest of South America Automotive Torque Vectoring Market Forecast, By Vehicle Type 17.30.1. Passenger vehicle 17.30.2. Light Commercial vehicle 17.31. South America Automotive Torque Vectoring Market Attractiveness Analysis 17.31.1. By Technology 17.31.2. By Propulsion 17.31.3. By EV 17.31.4. By Clutch Actuation Type 17.31.5. By Vehicle Type 17.32. PEST Analysis 17.33. Key Trends 17.34. Key Developments 18. Company Profiles 18.1. Market Share Analysis, by Company 18.2. Competition Matrix 18.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 18.2.2. New Product Launches and Product Enhancements 18.2.3. Market Consolidation 18.2.3.1. M&A by Regions, Investment and Applications 18.2.3.2. M&A Key Players, Forward Integration and Backward Integration 18.3. Company Profiles: Key Players 18.3.1. GKN 18.3.1.1. Company Overview 18.3.1.2. Financial Overview 18.3.1.3. Product Portfolio 18.3.1.4. Business Strategy 18.3.1.5. Recent Developments 18.3.1.6. Development Footprint 18.3.2. American Axle 18.3.3. Dana 18.3.4. BorgWarner 18.3.5. Eaton 18.3.6. ZF 18.3.7. JTEKT 18.3.8. Magna 18.3.9. Bosch 18.3.10. Univance 18.3.11. Schaeffler 18.3.12. Timken 18.3.13. Ricardo 18.3.14. Oerlikon Graziano 18.3.15. Mitsubishi Heavy Industries 18.3.16. HALDEX 18.3.17. Continental 19. Primary Key Insights.